JP3902926B2 - Memory card connection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a memory card connection device provided with a tray for automatically drawing and discharging a memory card.
[0002]
[Prior art]
Conventionally, in an electronic device such as a personal computer, a video camera, an electronic camera, or a mobile phone that uses a memory card with a built-in semiconductor chip and a card shape as an external storage device, an external connection provided in the memory card A memory card connection device is provided for electrically connecting a terminal to a circuit provided in the electronic device. In this type of memory card connecting device known conventionally, a memory card is manually inserted and ejected, a memory card is manually inserted, and the memory card is ejected by a return spring or the like. Some of them are automatically used, and some are automatically inserted (withdrawn) and ejected using a power source such as a motor.
[0003]
As a memory card connecting device that automatically inserts and ejects a memory card by using a power source, a feeding roller is driven to rotate by a motor, and a frictional force acting between the feeding roller and the memory card is used. In general, a memory card is transferred in a required direction.
[0004]
By the way, regardless of the memory card insertion / extraction means, the memory card connection device is provided with a contact group consisting of a number of elastic metal pieces corresponding to the external connection terminals provided in the memory card. Since each of the contacts constituting the contact group is elastically contacted with an external connection terminal provided in the memory card, the external connection terminal is connected to a circuit provided in the electronic device. The force required to insert the memory card into the connection device is that the front side of the memory card (the end on the insertion side to the memory card connection device) abuts the contact, and then the contact on the external connection terminal Until the predetermined position is reached.
[0005]
For this reason, in a memory card connection device with a roller type automatic insertion / ejection function in which a memory card is inserted / removed by a feed roller, after the front side of the memory card comes into contact with the contact, the gap between the feed roller and the memory card is reduced. The memory card is likely to slip and the memory card cannot be inserted smoothly, and the memory card is likely to cause a contact failure between the external connection terminal and the contact. Such inconvenience becomes particularly noticeable when the feed roller is deteriorated or when the surface of the feed roller is contaminated with dust or oil. In addition, in the roller type memory card connection device with automatic insertion / ejection function, it is necessary to generate a large frictional force between the feed roller and the memory card, so the diameter of the feed roller is inevitably increased. Inevitably, there is also a problem that the memory card connection device tends to be large.
[0006]
In order to eliminate the deficiency of such a roller type memory card connection device with automatic insertion / ejection function, the memory card is placed on a movable tray, and the movable tray on which the memory card is mounted is placed in a housing provided with a contact group. Development of a tray-type memory card connecting device that pulls in and electrically connects each contactor constituting the contactor group to an external connection terminal provided in the memory card has been studied.
[0007]
[Problems to be solved by the invention]
As is well known, there are a plurality of standards for memory cards, and a plurality of types of memory cards having different shapes are provided on the market.
[0008]
However, the conventional memory card connection device is provided with only one contact group regardless of the memory card insertion / extraction means, and one type of memory card suitable for the contact group is provided. Therefore, it cannot be applied to a memory card that does not match a set of contactors, and there is a problem that it lacks versatility.
[0009]
Also, since only one memory card can be installed, when handling large amounts of data or transferring data between memory cards, the memory card must be repeatedly inserted and removed from the memory card connection device. In addition, there is a problem that the convenience of use is lacking and the extensibility of the function is also lacking.
[0010]
Therefore, when developing a tray type memory card connection device, it is desired to be able to mount a plurality of memory cards in order to improve the versatility, convenience and expandability of the device.
[0011]
The present invention has been made to cope with such a demand, and an object of the present invention is to provide a memory card connection device with an automatic insertion / extraction function that is excellent in versatility, convenience, and expandability.
[0012]
[Means for Solving the Problems]
In order to solve the above problems, the present inventionpluralMemory cardConfigured to be able to holdA movable tray, a casing having an inlet / outlet of the movable tray, and set in the casingpluralThe memory card is driven by driving the contact group and the movable tray.CorrespondingA tray drive unit that transfers to a connection position with the contact group or a discharge position outside the housing, and the movable tray includes:The plurality ofMemory cardMultiple to hold each individuallyCard holderA plurality of insertion spaces for individually inserting the plurality of contact groups, and a notch for facilitating gripping of the memory card held by the card holding part.Formed,The plurality of card holding portions each have a card placement surface for placing the memory card, a card restricting portion for restricting the positions of the left and right sides of the memory card, and a card holder that abuts the rear side of the memory card. A contact portion and a card engagement portion that is engaged in a recess formed in the memory card, and the insertion space of each card placement surface and each contact group is through a step. Provided in the vertical direction of the movable tray,When the movable tray is pulled to the connection position in the housing by the tray driving unit, each external connection terminal of the memory card held by the card holding unit and each contact constituting the contact group are electrically connected. Connected toWhenI made this configuration.
[0013]
In this manner, a plurality of card holding portions capable of holding a plurality of memory cards are formed in the movable tray, and connected to each of the plurality of memory cards held in the plurality of card holding portions in the housing. When a plurality of contact groups are set, for example, the number of applicable memory cards can be increased by forming the plurality of card holding portions into shapes that can hold different types of memory cards. The versatility of the card connection device can be improved. Also, by allowing multiple memory cards to be connected to multiple contactors at the same time, it is easy to handle large amounts of data and transfer data between memory cards. And expandability of functions and functions can also be enhanced. Further, when the movable tray is provided with a memory card holding unit, the force applied from the tray driving unit can be reliably transmitted to the memory card held in each holding unit, and the external connection terminal provided in the memory card; Since connection with each contact which comprises a contact group can be performed reliably, the connection reliability of a memory card connection apparatus can be improved.
[0014]
Secondly, the movable tray is formed with a plurality of card holding portions capable of simultaneously holding a plurality of memory cards having different shapes.
[0015]
As described above, when a plurality of card holding portions capable of simultaneously holding a plurality of memory cards having different shapes are formed on the movable tray, the number of applicable memory cards can be increased. Can increase the sex. In addition, since multiple memory cards with different shapes can be connected to multiple contact groups at the same time, it is easy to handle large volumes of data and transfer data between memory cards with different standards. Convenience and function expandability of the connection device can also be enhanced.
[0016]
Third, the movable tray is formed with a plurality of card holding portions capable of simultaneously holding a plurality of memory cards having the same shape.
[0017]
As described above, when a plurality of card holding portions capable of simultaneously holding a plurality of memory cards having the same shape are formed on the movable tray, a plurality of memory cards having the same shape can be simultaneously connected to a plurality of contact groups. Therefore, handling of a large amount of data and data transfer between memory cards of the same standard are facilitated, and the convenience and function expandability of the memory card connection device can be enhanced.
[0018]
Fourth, the plurality of card holding portions are arranged in parallel in the same plane on the movable tray, and the plurality of memory cards attached to each of the plurality of card holding portions do not overlap each other on the movable tray. It was configured to be retained.
[0019]
As described above, a plurality of card holding units are arranged in parallel in the same plane on the movable tray, and a plurality of memory cards mounted on each of the plurality of card holding units are held on the movable tray without overlapping each other. With this configuration, the memory card connection device is not thickened, so that it is possible to obtain a memory card connection device that is thin and excellent in versatility, convenience, and function expandability.
[0020]
Fifth, the plurality of card holding portions are arranged in parallel in different planes on the movable tray, and a plurality of memory cards mounted on each of the plurality of card holding portions overlap each other and are held on the movable tray. It was configured to be.
[0021]
As described above, the plurality of card holding units are arranged in parallel in different planes on the movable tray, and the plurality of memory cards mounted on each of the plurality of card holding units overlap each other and are held by the movable tray. With this configuration, the memory card connection device does not increase in size, so that it is possible to obtain a memory card connection device that is small and excellent in versatility, convenience, and function expandability.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
First, the configuration of a memory card applied to the memory card connection device according to the present invention will be described with reference to FIGS. FIG. 1 is a plan view seen from the external connection terminal forming surface side of a memory card called an MS card and a side view seen from the front side, and FIG. 2 is an external connection terminal of the memory card called an SD card. It is the top view seen from the formation surface side, and the side view seen from the front side.
[0023]
As shown in FIG. 1, the MS card 100 has a planar shape in which the length L of the right side 100c and the left side 100d is more than double the width W of the front side 100a and the rear side 100b. An arc-shaped notch 102 for preventing erroneous insertion is formed at the right front corner as viewed from the forming surface side of the external connection terminal 101, and at the side of the front side 100a of the left and right sides 100c, 100d Arc-shaped and rectangular recesses 103 and 104 are formed. Ten external connection terminals 101 are arranged along the front side 100a of the MS card 100, and each is electrically connected to a semiconductor chip (not shown) embedded in the card body. Power supply from the external device to the semiconductor chip and transmission / reception of signals between the external device and the semiconductor chip are performed through the external connection terminal 101 and a contact of a card connector described later.
[0024]
On the other hand, as shown in FIG. 2, the SD card 200 has a planar shape in which the length L of the right side 200c and the left side 200d is about 1.35 times the width W of the front side 200a and the rear side 200b. A diagonal side 202 for preventing erroneous insertion is formed at the left front corner portion as viewed from the forming surface side of the external connection terminal 201, and erroneous insertion prevention is provided on the left and right sides 200c and 200d. A step portion 203 is formed. Nine external connection terminals 201 are arranged along the front side 200a of the memory card 200, and each is electrically connected to a semiconductor chip (not shown) embedded in the card body. Supply of power from the external device to the semiconductor chip and transmission / reception of signals between the external device and the semiconductor chip are performed through the external connection terminal 201 and a card connector contact described later.
[0025]
Hereinafter, a first embodiment of a memory card connection apparatus according to the present invention will be described with reference to FIGS. 3 and 4, taking a memory card connection apparatus to which both the MS card 100 and the SD card 200 can be applied as an example. 3 is a plan view of the memory card connection device according to the first embodiment when the card is ejected, and FIG. 4 is a cross-sectional view taken along line 4-4 of FIG.
[0026]
  As is clear from these drawings, the memory card connection device of this example includes a housing 1, a circuit board 2 set in the housing 1, and first and second circuits set on the circuit board 2. 2 card connectors 3 and 4, first and second switches 5 and 6, and a tray driving unit set in the housing 18And the tray drive unit8Movable tray driven by7Consists mainly of.
[0027]
The casing 1 is formed in a box shape having a bottom plate 11, side plates 12, 13, a back plate 14, and a top plate 15, and the casing 1 includes the bottom plate 11, the side plates 12, 13 and the top plate 15. An inlet / outlet port 16 of the movable tray 7 is formed at one end. A boss 17 for attaching the circuit board 2 protrudes upward at a substantially central portion of the upper surface of the bottom plate 11, and the circuit board 2 is fastened to the boss 17 with screws 18. A holding plate 19 for stably holding the movable tray 7 is projected inwardly on the upper side of the side plates 12 and 13, and a housing is provided on the lower side of the side plates 12 and 13. A mounting portion 20 having a screw hole 20a for mounting 1 to an external device (not shown) projects outwardly. Further, a guide pin 21 for guiding the movable tray 7 is attached to the side plate 12 near the entrance 16. The housing 1 is formed with a synthetic resin molded body except for the guide pins 21.
[0028]
As shown in FIGS. 3 and 4, the first card connector 3 has a number of contacts 3 a corresponding to the number of external connection terminals 101 provided in the MS card 100 according to the arrangement of the external connection terminals 101. A planar shape is formed in a U-shape with a header portion 3b planted in an array and two guide frames 3c, 3d arranged in parallel with each other with an interval through which the MS card 100 can be inserted. The guide frames 3c and 3d are mounted on the circuit board 2 with the entrance / exit 16 facing the side. The plurality of contacts 3 a are connected to a circuit pattern (not shown) formed on the circuit board 2. The header portion 3b and the guide frames 3c and 3d are integrally formed with a synthetic resin molded body, and the contact 3a is formed of a conductive material having excellent elasticity such as phosphor bronze.
[0029]
On the other hand, as shown in FIGS. 3 and 4, the second card connector 4 has a number of contacts 4 a corresponding to the number of external connection terminals 201 provided in the SD card 200 in the arrangement of the external connection terminals 201. A planar shape is formed in a U-shape with a header portion 4b planted in an appropriate arrangement and two guide frames 4c and 4d arranged in parallel with each other with an interval through which the SD card 200 can be inserted. The guide frames 4c and 4d are mounted on the circuit board 2 with the entrance / exit 16 facing the side. The plurality of contacts 4 a are connected to a circuit pattern (not shown) formed on the circuit board 2. The header portion 4b and the guide frames 4c and 4d are integrally formed with a synthetic resin molded body, and the contact 4a is formed of a conductive material having excellent elasticity such as phosphor bronze.
[0030]
As the first and second card connectors 3 and 4, general-purpose products that have been conventionally applied to memory card connection devices and the like can be used.
[0031]
  The first switch 5 is a movable tray7A movable tray disposed on the insertion path7When this is pushed slightly from the discharge position, this is detected and the tray drive section8Start the motor provided in On the other hand, the second switch 6 is a movable tray.7A movable tray disposed on the insertion path7Has completed electrical connection between the external connection terminal 101 provided in the MS card 100 and the contact 3a provided in the first card connector 3, and the external connection terminal provided in the SD card 200. When the electric connection between 201 and the contact 4a provided on the second card connector 4 is transferred to a predetermined position, this is detected and the tray driving unit is detected.8The drive of the motor provided in is stopped. These first and secondofThe switches 5 and 6 are connected to a circuit pattern (not shown) formed on the circuit board 2.
[0032]
  Tray drive unit83 and 4, the motor 31, the worm gear 32 fixed to the main shaft of the motor 31, the first spur gear 33 meshed with the worm gear 32, and the first A second spur gear 34 formed concentrically with the spur gear 33, a third spur gear 35 meshed with the second spur gear 34, and a fourth gear meshed with the third spur gear 35. From a spur gear 36, a fifth spur gear 37 meshed with the fourth spur gear 36, and a sixth spur gear (rack drive pinion) 38 formed concentrically with the fifth spur gear 37. Respectively, and set on the bottom plate 11 of the housing 1.
[0033]
The movable tray 7 includes a tray main body 41, a first switch operation unit 42 and a rack forming unit 43 formed integrally with the tray main body 41.
[0034]
As shown in FIGS. 3 and 4, the tray main body 41 is formed in a quadrangular shape having a size that can be stored in the housing 1. A holding plate 53 having 52 is formed, and a second switch operation portion 54 for operating the second switch 6 is formed on a side surface portion below the holding plate 53.
[0035]
An uppermost surface 53a of the holding plate 53 is a mounting surface of the MS card 100, and an MS card restricting portion 55 for restricting the positions of the left and right sides 100c and 100d of the MS card 100 and the MS card 100 around the mounting surface An MS card contact portion 56 that contacts the rear side 100b is formed. Further, when the second half portion of the MS card 100 is held in the MS card restricting portion 55 and the MS card abutting portion 56, the portion where the concave portions 103, 104 of the MS card 100 are disposed is in the concave portions 103, 104. MS card engaging portions 57 and 58 that are slightly tightly engaged are formed. The MS card restricting portion 55, the MS card abutting portion 56, and the MS card engaging portions 57 and 58 constitute a holding portion for the MS card 100.
[0036]
Further, the middle stage of the holding plate 53, that is, the lower stage surface 53 b of the step 51 is a mounting surface of the SD card 200, and the positions of the left and right sides 200 c and 200 d of the SD card 200 are restricted around the mounting surface. An SD card restricting portion 59 and an SD card abutting portion 60 that abuts the rear side 200b of the SD card 200 are formed. Further, when the second half of the SD card 200 is held in the SD card restricting portion 59 and the SD card contact portion 60, the portion where the first half of the SD card 200 is arranged is the first half of the SD card 200. A frame-shaped SD card engagement portion 61 is formed surrounding the frame. The SD card restricting portion 59, the SD card abutting portion 60, and the SD card engaging portion 61 constitute a holding portion for the SD card 200. The SD card 200 is engaged with a boundary portion between the placement surface 53b of the SD card 200 and the SD card restricting portion 59 in a step portion 203 for preventing erroneous insertion formed on the left and right sides 200c and 200d of the SD card 200. A protrusion 62 is formed on the inner surface of the frame-shaped SD card engaging portion 61, and an erroneous insertion preventing projection 63 corresponding to an oblique insertion preventing edge 202 formed on the SD card 200 is provided. Is formed.
[0037]
Further, the lower stage of the holding plate 53, that is, the lower stage surface 53c of the step 52 is a guide surface for guiding insertion of the circuit board 2 and the second card connector 4, and the guide surface 53c and the holding surface are held. A space 64 formed by the lower surface of the SD card 200 held in the section is an insertion space for the circuit board 2 and the second card connector 4. On the other hand, the insertion space 65 of the circuit board 2 and the first card connector 3 has a space between the two MS card engaging portions 57 and 58.
[0038]
In addition, a notch 66 for facilitating gripping of the MS card 100 and the SD card 200 mounted on the tray main body 41 is formed at the central end of the holding plate 53.
[0039]
The first switch operation unit 42 and the rack forming unit 43 are provided in parallel to each other with an interval through which the first switch operation unit 42 and the rack forming unit 43 can be inserted into the housing 1 from the entrance 16. A slope 67 for smooth engagement with the first switch 5 is formed on the inner surface of the front end of the first switch operation portion 42, and the sixth flat surface is formed inside the rack formation portion 43. A rack 68 that can mesh with the gear (rack drive pinion) 38 is formed.
[0040]
Hereinafter, the operation of the memory card connection device according to the embodiment will be described with reference to FIGS. 5 is a plan view of the memory card connection device according to the first embodiment when the card is connected, and FIG. 6 is a cross-sectional view taken along the line 6-6 in FIG.
[0041]
In the ejected state of the MS card 100 and the SD card 200, as shown in FIGS. 3 and 4, the tray main body 41 protrudes from the inside of the housing 1, and both the first and second switches 5 and 6 are in the first state. The first switch operation unit 42 and the second switch operation unit 54 are not engaged, and the motor 31 is in a stopped state.
[0042]
From this state, the user points the front side 200a of the SD card 200 toward the second card connector 4 and the external connection terminal 201 downward, and the placement surface 53b, the SD card restricting portion 59, and the SD card. The SD card 200 is held in the holding portion of the SD card 200 configured by the contact portion 60 and the SD card engaging portion 61. In addition, the user faces the MS card 100 with the front side 100a facing the first card connector 3 and the external connection terminal 101 facing downward, so that the placement surface 53a, the MS card restricting portion 55, and the MS card contact with each other. The MS card 100 is held in the holding portion of the MS card 100 constituted by the portion 56 and the MS card engaging portions 57 and 58. Of course, it is not always necessary to hold both the MS card 100 and the SD card 200 in the tray body 41, and it is sufficient to hold only one of the cards as necessary.
[0043]
When the SD card 200 is inserted into the holding portion of the SD card 200 in an upside down state, the tray is placed in the step portion 203 for preventing erroneous insertion formed on the left and right sides 200c and 200d of the SD card 200. Since the protrusion 62 formed on the main body 41 is not engaged and the SD card 200 cannot be mounted in a normal state, erroneous insertion of the SD card 200 is prevented. In addition, when the SD card 200 is inserted into the holding portion of the SD card 200 in a state where it is reversed, the front corner portion not having the hypotenuse 202 of the SD card 200 is formed on the inner surface of the SD card engaging portion 61. Since the SD card 200 cannot be mounted in a normal state by colliding with the erroneous insertion preventing protrusion 63, the erroneous insertion of the SD card 200 is also prevented. On the other hand, when the MS card 100 is inserted into the holding portion of the MS card 100 in a state where the MS card 100 is inverted upside down and in a state where the MS card 100 is inverted in the front-rear direction, the erroneous insertion preventing recesses 103 and 104 formed on the left and right sides of the MS card 100 The MS card engaging portions 57 and 58 formed on the tray main body 41 are not engaged with each other, and the MS card 100 cannot be mounted in a normal state, so that erroneous insertion of the MS card 100 is prevented.
[0044]
  After the required memory card is mounted on the movable tray 7, the user can move the movable tray.7Is pressed toward the housing 1, the slope 67 formed at the tip of the first switch operation unit 42 comes into contact with the operating portion of the first switch 5, and the contact of the first switch 5 is switched to the ON state. As the motor 31 is started, the rack 68 is engaged with the sixth spur gear (rack drive pinion) 38. Therefore, movable tray7Is drawn into the housing 1, and as shown in FIGS. 5 and 6, the contact 3a provided in the first card connector 3 and the external connection terminal 101 provided in the MS card 100 are electrically connected. At the same time, the contact 4 a provided in the second card connector 4 and the external connection terminal 201 provided in the SD card 200 are electrically connected. At this time, the second switch operating portion 54 formed on the tray body 41 is brought into contact with the operating portion of the second switch 6, the contact of the second switch 6 is switched to the OFF state, and the motor 31 is stopped. As a result, power supply and data transmission / reception between the external device and the MS card 100 and power supply and data transmission / reception between the external device and the SD card 200 become possible.
[0045]
  When the user reverses the motor 31 after the transmission / reception of required data is completed, the movable tray is moved from the housing 1 through the reverse process.7Is discharged. After reaching this state, as shown in FIGS. 3 and 4, the rear end portions of the MS card 100 and the SD card 200 are exposed to the outside from the cutout portion 66 formed in the tray main body 41, so that the user Is a movable tray by gripping the rear end of the MS card 100 or SD card 200 and lifting it upward.7The MS card 100 or the SD card 200 can be taken out of the card.
[0046]
  The memory card connection device of this example is a movable tray.7In addition, the holding portion of the MS card 100 including the placement surface 53a, the MS card restricting portion 55, the MS card contact portion 56, and the MS card engaging portions 57, 58, the placement surface 53b, the SD card restricting portion 59, and the SD The SD card 200 holding portion including the card abutting portion 60 and the SD card engaging portion 61 is formed, and the first card connector 3 connected to the MS card 100 and the SD card 200 are connected to the housing 1. Since the second card connector 4 is set, both the MS card 100 and the SD card 200 can be supported, and the versatility of the memory card connection device can be enhanced. Also, a plurality of memory cards 100 and 200 can beFirst and secondSince it can be connected to the card connectors 3 and 4, handling of a large amount of data and transfer of data between memory cards are facilitated, and the convenience and function expandability of the memory card connection device can be enhanced. Furthermore, movable tray7In addition, since the holding portion of each memory card 100, 200 having the MS card abutting portion 56 and the MS card engaging portions 57, 58 and the SD card abutting portion 60 and the SD card engaging portion 61 is provided, the tray driving portion8The force applied can be reliably transmitted to the memory cards 100 and 200 held in the holding portions, and the external connection terminals 101 and 201 provided in the memory cards 100 and 200 and the first and second terminals. The connection with the contacts 3a and 3b provided in the card connectors 3 and 4 can be reliably performed, and the connection reliability of the memory card connection device can be improved. In addition, the memory card connection device of this example has a movable tray.7Since the MS card 100 and the SD card 200 are mounted on the two card holders formed on the top and bottom with the long side direction axes aligned with each other, the planar shape of the memory card connection device is large. Thus, a memory card connection device that is small and excellent in versatility, convenience, and function expandability can be obtained.
[0047]
Next, a second embodiment of the memory card connection device according to the present invention will be described with reference to FIG. FIG. 7 is a plan view of the memory card connecting apparatus according to the second embodiment when the card is connected.
[0048]
  As is clear from FIG. 7, the memory card connection device of this example is a movable tray.7In addition, the MS card 100 and the SD card 200 are mounted so as to overlap each other in a state where the axes in the long side direction are orthogonal to each other. Since other configurations are the same as those of the memory card connection device according to the first embodiment, description thereof will be omitted.
[0049]
  The memory card connection device of this example has the same effects as the memory card connection device according to the first embodiment, and a movable tray.7In addition, since the MS card 100 and the SD card 200 are mounted so as to overlap each other with their long-side axes orthogonal to each other, the arrangement of the first and second card connectors 3 and 4 is facilitated. It has the effect of being able to.
[0050]
Next, a third embodiment of the memory card connection device according to the present invention will be described with reference to FIG. FIG. 8 is a plan view of the memory card connecting apparatus according to the third embodiment when the card is connected.
[0051]
  As is clear from FIG. 8, the memory card connection device of this example is a movable tray.7In the same plane, the holding part of the MS card 100 and the holding part of the SD card 200 are juxtaposed so that the MS card 100 and the SD card 200 mounted in each card holding part do not overlap each other. Features. Since other configurations are the same as those of the memory card connection device according to the first embodiment, description thereof will be omitted.
[0052]
The memory card connection device of this example has the same effects as the memory card connection device according to the first embodiment, and the MS card 100 and the SD card 200 mounted on each card holding unit do not overlap each other. Therefore, it is possible to prevent the memory card connecting device from being thickened, and it is possible to obtain a memory card connecting device that is thin and excellent in versatility, convenience, and function expandability.
[0053]
In each of the above embodiments, the case where the MS card 100 and the SD card 200 are mounted has been described as an example. However, the type of the memory card is not limited, and any type of memory card can be used. It can be configured to be worn. Further, not only can different types of memory cards be mounted, but a configuration in which a plurality of the same type of memory cards are mounted can also be adopted. Of course, the number of memory cards that can be mounted is not limited to two, and an arbitrary number of three or more memory cards can be mounted. Further, in each of the above embodiments, the case where two memory cards can be mounted simultaneously has been described as an example. However, when one memory card is mounted, it is impossible to mount another memory card. It can also be configured to be.
[0054]
  In each of the above embodiments, the housing 1 has a header portion and two guide frames.First and secondWith card connectors 3 and 4,First and secondThe configuration of the card connectors 3 and 4 is not limited to this, and a card connector having an arbitrary configuration can be provided. Furthermore, it is not always necessary to provide a card connector, and it is sufficient if a required number of contact groups are provided in a required arrangement.
[0055]
【The invention's effect】
According to the present invention, the movable tray forms a plurality of card holding portions capable of holding a plurality of memory cards, and is connected to each of the plurality of memory cards held in the plurality of card holding portions in the housing. For example, by forming a plurality of card holding portions into shapes that can hold different types of memory cards, the number of applicable memory cards can be increased, The versatility of the card connection device can be improved. In addition, by allowing multiple memory cards to be connected to multiple contactors at the same time, it is easy to handle large volumes of data and transfer data between memory cards. In addition, the extensibility of functions can be enhanced. Furthermore, since the movable tray is provided with a memory card holding unit, the force applied from the tray driving unit can be reliably transmitted to the memory card held in each holding unit, and the external connection terminal provided in the memory card and The contact with each contact constituting the contact group can be reliably performed, and the connection reliability of the memory card connection device can be improved.
[Brief description of the drawings]
FIG. 1 is a plan view seen from an external connection terminal forming surface side of an MS card and a side view seen from a front side.
FIG. 2 is a plan view seen from the external connection terminal forming surface side of the SD card and a side view seen from the front side.
FIG. 3 is a plan view of the memory card connection device according to the first embodiment when the card is ejected.
4 is a cross-sectional view taken along line 4-4 of FIG.
FIG. 5 is a plan view of the memory card connection device according to the first embodiment when the card is connected.
6 is a cross-sectional view taken along the line 6-6 in FIG. 3;
FIG. 7 is a plan view of the memory card connection device according to the second embodiment when the card is connected.
FIG. 8 is a plan view of the memory card connection device according to the third embodiment when the card is connected.
[Explanation of symbols]
  1 housing
  2 Circuit board
  3, 4 Card connector (contact group)
  5,6 switch
  7Movable tray
  8Tray drive unit
  16 Entrance
  53a MS card placement surface
  53b SD card placement surface
  100 MS card (memory card)
  200 SD card (memory card)

Claims (6)

A movable tray configured to be able to hold a plurality of memory cards , a casing having an inlet / outlet of the movable tray, a plurality of contact groups set in the casing, and the memory card by driving the movable tray A tray drive unit that transfers the contact position to the corresponding contact group or the discharge position outside the housing,
In the movable tray, a plurality of card holding portions for individually holding the plurality of memory cards, a plurality of insertion spaces for individually inserting the plurality of contact groups, and the card holding portion A notch for facilitating gripping of the memory card held in the
The plurality of card holding portions each have a card placement surface for placing the memory card, a card restricting portion for restricting the positions of the left and right sides of the memory card, and a card holder that abuts the rear side of the memory card. A contact portion and a card engagement portion that is engaged in a recess formed in the memory card, and the insertion space of each card placement surface and each contact group is through a step. Provided in the vertical direction of the movable tray,
When the movable tray is pulled to the connection position in the housing by the tray driving unit, each external connection terminal of the memory card held by the card holding unit and each contact constituting the contact group are electrically connected. memory card connection device, wherein connected to the Turkey on.   The memory card connection device according to claim 1, wherein a plurality of card holding portions capable of simultaneously holding a plurality of memory cards having different shapes are formed on the movable tray.   The memory card connection device according to claim 1, wherein a plurality of card holding portions capable of simultaneously holding a plurality of memory cards having the same shape are formed on the movable tray.   The plurality of card holding portions are arranged in the same plane on the movable tray, and the plurality of memory cards mounted on each of the plurality of card holding portions are held on the movable tray without overlapping each other. The memory card connection device according to claim 1.   The plurality of card holding portions are arranged in parallel in different planes on the movable tray, and a plurality of memory cards mounted on each of the plurality of card holding portions overlap each other and are held on the movable tray. The memory card connection device according to claim 1, wherein:   The tray driving unit includes a motor, a gear rotated by the motor, and a rack formed on the movable tray and meshed with the gear, and the rack is formed on an inner side of the movable tray, The memory card connection device according to claim 1, wherein the memory card is engaged with the gear on an inner side of the movable tray.

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